CN107920704A - Suck unit - Google Patents

Abstract

The suction unit of the present invention, including：Shell, has air intake；Noise reduction unit, is arranged at the shell, and the noise reduction unit separates configuration in the outside of the air intake and the air intake；Impeller, for making by the noise reduction unit and having passed through the air flow of the air intake；Motor, has the rotation axis for being used for being connected with the impeller；Guide mechanism, for guiding the flowing of the air from the outlet outflow of the impeller；And axis engaging portion, combined with the rotation axis for being connected to the impeller.

Description

Suck unit

Technical field

The present invention relates to one kind to suck unit.

Background technology

Vacuum suck unit is generally positioned at electric dust collector, to suck the air containing dust.

No. 2013-0091841 (publication date of Korean Patent Laid as prior art literature：August 20 in 2013 Day) in disclose a kind of vacuum suck unit.

The vacuum suck unit, including：Motor；Impeller, is connected with motor by rotation axis, sky is sucked by rotating Gas；And guiding elements, it is adjacent to configuration with impeller, guides the air from impeller discharge.

The upper end of the rotation axis is combined with impeller, and at this time, the rotation axis can be combined with the impeller by bonding agent.

According to above-mentioned prior art literature, when the rotation axis and the impeller are not completely combined, or the impeller Bonding force between the rotation axis becomes hour, can produce following problem, i.e. and the impeller comes off from the rotation axis, or Rotation axis dallies relative to impeller described in person.

In addition, in the prior art document, since air is flowed into by the single suction inlet of fan guard, so that air is only It can flow and can not be flowed in whole suction inlet in the subregion of suction inlet, therefore there is the problem of producing flow noise.

In addition, in the prior art document, although rotation axis is inserted into guiding elements, by the hole that rotation axis is penetrated through with Gap between rotation axis, rotation axis can be moved to the direction that the extending direction with the rotation axis intersects, therefore can produce institute State the problem of impeller is in contact with fan guard.

The content of the invention

Problem to be solved by the invention

It is an object of the present invention to provide one kind to suck unit, can prevent the separated feelings of rotation axis of impeller from motor Condition.

Another object of the present invention is to, there is provided one kind suction unit, can prevent what impeller from dallying with rotation axis Situation.

It is a further object of the present invention to provide one kind to suck unit, can reduce the flowing during air flows into Noise.

It is a further object of the present invention to provide one kind to suck unit, the situation that impeller can be prevented to be in contact with shell.

The means used to solve the problem

The suction unit of one side, including：Shell, has air intake；Noise reduction unit, is arranged at the shell, the drop The portion that makes an uproar separates configuration in the outside of the air intake and the air intake；Impeller, for making by the noise reduction unit and leading to The air flow of the air intake is crossed；Motor, has the rotation axis for being used for being connected with the impeller；Guide mechanism, is used for Guide the flowing of the air from the outlet outflow of the impeller；And axis engaging portion, the rotation with being connected to the impeller Axis combines.

The noise reduction unit is connected by the connection rib with the air intake.

Between the noise reduction unit and the air intake, air flow circuit is formed.

The noise reduction unit makes air be divided into multiple flow paths.

The outside diameter of the noise reduction unit is less than the internal diameter of the air intake.

The noise reduction unit includes：First rib, is formed as ring-type；Second rib, positioned at the inside region of the first rib；With And the 3rd rib, for connecting the first rib and second rib.

Air flows between the first rib and second rib.

Second ribbed becomes ring-type, to enable air to by second rib.

The impeller includes：Axis breakthrough part, the rotation axis penetrate through the axis breakthrough part；And receiving portion, accommodate the axis Engaging portion.

The rotation axis includes being used for the junction end combined with the axis engaging portion, and the junction end is described to penetrate through The state of axis engaging portion, positioned at described accommodation section.

The junction end includes screw thread, and the axis engaging portion includes being used for the spiral shell being screwed with the junction end Line.

In the state of being combined in the axis engaging portion with the rotation axis in described accommodation section, the axis engaging portion with it is described The entrance of receiving portion is separated to the rotation shaft side.

The internal diameter of described accommodation section is more than the internal diameter of the axis breakthrough part, is combined in the axis engaging portion with the rotation axis In the state of, the segment difference face of the axis engaging portion and described accommodation section and the axis breakthrough part is in contact.

The rotation axis penetrates through the guide mechanism；The guide mechanism has bearing, and the rotation axis penetrates through the axis Hold.

The rotation axis is connected after the bearing is penetrated through with the impeller.

The impeller includes：Wheel hub, and, multiple blades, are formed at the wheel hub；The guide mechanism includes：Guiding Body, and, multiple guide plates, in the configuration spaced apart in the circumferential direction of the outer circumferential surface of the guide body.

The maximum gauge of the wheel hub is more than the outside diameter of the guide body.

The effect of invention

According to proposed invention, the rotation axis for being connected to impeller is combined with axis engaging portion, so as to prevent impeller from The separated situation of rotation axis of motor.

In addition, by axis engaging portion, the situation that can prevent impeller from dallying with rotation axis.

In addition, according to the present invention, using noise reduction unit, the flowing during air flows into air intake can be reduced and made an uproar Sound.

In addition, according to the present invention, rotation axis is connected with the state combined with bearing with impeller, so as to prevent rotation axis The direction intersected to the extending direction with rotation axis is moved, thus, it is possible to prevent from making an uproar because of the friction that impeller is contacted with shell and produces Sound.

Brief description of the drawings

Fig. 1 is the exploded perspective view of the suction unit of one embodiment of the invention.

Fig. 2 is the stereogram of the shell of the suction unit of Fig. 1.

Fig. 3 is the sectional view of the suction unit of one embodiment of the invention.

Fig. 4 is the figure of the situation for the rotation axis perforation guide mechanism for showing the motor of the present invention.

Fig. 5 is the figure of axis engaging portion for showing to be combined with rotation axis in impeller.

Fig. 6 is the amplification stereogram of the part A of Fig. 3.

Fig. 7 is the figure for the vacuum cleaner for showing the suction unit with the present invention.

Embodiment

Hereinafter, by schematical attached drawing, some embodiments that the present invention will be described in detail.It should notice, to each attached During the structural element mark reference numeral of figure, for identical structural element, even if occurring in different drawings, also as far as possible Using identical reference numeral.In addition, when being illustrated to the embodiment of the present invention, when to relevant known features or function Illustrate when being judged as hindering understanding of the embodiments, can description is omitted.

In addition, when the structural element to the embodiment of the present invention illustrates, can be used first, second, A, B, (a), (b) term such as.These terms are only used to the differentiation between the structural element and other structures key element, and the term is without limitation on the knot Essence or order or order of structure key element etc..Some structural element " connection ", " with reference to " or " access " is recited as it should be appreciated that working as During to another structural element, which can be directly connected to or access to another structural element, but can also be each " connection ", " with reference to " or " access " another structural element between structural element.

Fig. 1 is the exploded perspective view of the suction unit of one embodiment of the invention.

With reference to Fig. 1, the suction unit 1 of one embodiment of the invention may include the shell (Cover) with air intake 101 10。

In addition, the suction unit 1 can further include：Impeller (Impeller) 20；And for rotating the impeller 20 Motor 40.

The motor 40 includes rotation axis 412, and the rotation axis 412 can be combined with the impeller 20.

It's not limited to that for the motor 40, can include stator (Stator) and rotor (Rotor), the rotation axis 412 can be connected with the rotor.

The impeller 20 can be contained in the shell 10.The shell 10 will can be introduced by the air intake 101 Air guided to 20 side of impeller.Moreover, the shell 1 can separate inner space with external pressure, so that Inner space keeps vacuum pressure.

The static energy and dynamic pressure energy for the air that the increase of impeller 20 is introduced by the air intake 101.Therefore, utilize The impeller 20 can increase the flow velocity of air.

The impeller 20 for example may include：Wheel hub (Hub) 210；And configure multiple impeller leaves in the wheel hub 210 Piece (Impeller blade) 212.

The impeller 20 can further include at least one of receiving portion of the rotation axis 412 for accommodating the motor 40 216。

At least a portion of the rotation axis 412 can be located at described accommodation section 216, the rotation positioned at described accommodation section 216 Shaft 412 can be combined with axis engaging portion 218.

The suction unit 1 can further include guide mechanism 30, which guides from the outlet 214 of the impeller 20 The flowing of the air of outflow.

The guide mechanism 30 functions as follows, i.e. by the energy of the air flowed out from the outlet 214 of the impeller 20 Dynamic pressure in component can be converted into static energy.That is, described guide mechanism 30 can reduce the flow velocity of fluid increase static energy.

The guide mechanism 30 can be combined with the shell 10.Moreover, at least a portion of the guide mechanism 30 can With in the shell 10, the impeller 20 can be located at the top of the guide mechanism 30.

The guide mechanism 30 may include：Guide body (Guide body) 310；And configure in the guide body 310 Multiple guide plates (Vane) 320 of surrounding.

For example, the guide body 310 can be formed as cylindrical shape, the multiple guide plate 320 can be along the guiding The circumferencial direction of body 310 separates.

At this time, the maximum gauge of the wheel hub 210 can be more than the outside diameter of the guide body 310.

The guide mechanism 30 can further include the connecting portion 330 for connecting the multiple guide plate 320.The shell 10 Side can be placed in the connecting portion 330.

The guide mechanism 30 can further include bearing 340.The rotation axis 412 can be after the bearing 340 be penetrated through Combined with the impeller 20.

The suction unit 1 can further include the electric machine support (Motor supporter) 50 for being used to support the motor 40.

The motor 40 may include the first fastening part 410 for being fastenedly connected with the electric machine support 50.The motor Stent 50 may include the second fastening part 502 for being fastenedly connected with first fastening part 410.

Hereinafter, simple illustration is carried out to the air flow in the suction unit 1.

When power supply is applied to the suction unit 1, the motor 40 is driven.Then, the rotation axis 412 rotates, from And make to rotate with the impeller 20 that the rotation axis 412 is combined.

Due to the impeller 20, the air of the outside of the suction unit 1 can be flowed into described by the air intake 101 In shell 10.The air flowed into the shell 10 is flowed along the impeller 20.

The flowing of the air flowed out from the outlet 214 of the impeller 20 is guided by the shell 10, so that from the impeller The air that 20 outlet 214 is flowed out is flowed to 320 side of guide plate of the guide mechanism 30.Then, air is in guide body 310 Flowed between the inner peripheral surface of outer circumferential surface and the shell 10, in the process, the guide plate 320 guides the flowing of air.

Moreover, the air that the guide plate 320 is guided is flowed along the outer circumferential surface of the electric machine support 50.

Fig. 2 is the stereogram of the shell of the suction unit of Fig. 1.

With reference to Fig. 2, the shell 10 of the present embodiment can further include noise reduction unit 103, and the air intake 101 is introduced in air During, the noise reduction unit 103 reduces noise.

When on the basis of the flow direction by air, the noise reduction unit 103 can be located at the upper of the air intake 101 Trip.

The noise reduction unit 103 can guide air to be divided into multiple air flow circuits 102 to flow, so as to reduce noise.

The noise reduction unit 103 can separate configuration in the outside of the air intake 101 and the air intake 101, and And it is connected by the connection rib 107 with the air intake 101.

Therefore, air can enter by the gap inflow air between the noise reduction unit 103 and the air intake 101 Mouth 101.

In addition, air can be shunted by the noise reduction unit 103.

The noise reduction unit 103 may include：Cricoid first rib 104；Positioned at the second of the inside region of the first rib 104 Rib 105；And for connecting the 3rd rib 106 of the first rib 104 and second rib 105.

The outside diameter of the first rib 104 can be formed as less than the diameter of the air intake 101.

Second rib 105 can be formed as ring-type.Therefore, air can pass through second rib 105.

Second rib 105 is located at the inside region of the first rib 104, so that air can be in the first rib 104 Region flowing between second rib 105.At this time, air between 104 and second rib 105 of first rib with described The state flowing of 3rd rib 106 division.

Therefore, according to the present embodiment, when the motor 40 runs and rotates the impeller 20, the suction unit 1 Outside air in it is a part of can pass through introduce the air between the noise reduction unit 103 and the air intake 101 Entrance 101.Another part in air can pass through the region that second rib 105 is formed and introduce the air intake 101, Another part in air can pass through the introducing air of the region between the first rib 104 and second rib 105 and enter Mouth 101.

According to the present embodiment, multiple streams that the air in the outside of the air intake 101 is divided in the noise reduction unit 103 Road is flowed, and is introduced into the air intake 101, is minimized so that the formation of air sinuous flow is realized, therefore with making sky The advantages of flow noise of gas reduces.

At this time, since the noise reduction unit 103 is located at the outside of the air intake 101, the air can be prevented Flow path area in entrance 101 reduces, and can prevent the situation of amount of flow reduction.

Fig. 3 is the sectional view of the suction unit of one embodiment of the invention；Fig. 4 is the rotation axis for showing the motor of the present invention Penetrate through the figure of the situation of guide mechanism；Fig. 5 is the figure of axis engaging portion for showing to be combined with rotation axis in impeller.

With reference to Fig. 3 to Fig. 5, the rotation axis 412 of the motor 40 after the guide mechanism 30 is penetrated through with the impeller 20 combine.

As an example, the impeller 20 can further include the axis breakthrough part 215 penetrated through for the rotation axis 412 of the motor 40. The axis breakthrough part 215 can be connected with described accommodation section 216.

The rotation axis 412 can penetrate through the axis breakthrough part 215, and a part of of the rotation axis 412 can be located at institute State receiving portion 216.

When on the basis of attached drawing, the rotation axis 412 can penetrate through the axis breakthrough part from the downside of the impeller 20 215。

The diameter of described accommodation section 216 can be more than the diameter of the axis breakthrough part 215.As an example, the axis perforation The diameter in portion 215 can be equal to or slightly less than the outside diameter of the rotation axis 412.Therefore, the rotation axis 412 can be pressed into described Axis breakthrough part 215.In this case, it is possible to it need not be used to consolidate with reference to the rotation axis 412 and the extra of the impeller 20 Determine device.Certainly, the rotation axis 412 can also be adhered to the impeller 20 by bonding agent.

In the state of a part for the rotation axis 412 is located at described accommodation section 216, the periphery of the rotation axis 412 Face is separated with 216 inner peripheral surface of described accommodation section.

Moreover, in the state of the rotation axis 412 is located at described accommodation section 216, the end of the rotation axis 412 and institute The opening 216a for stating receiving portion 216 is separated.

The rotation axis 412 may include the junction end 414 for being combined with axis engaging portion 218.

When the rotation axis 412 penetrates through the axis breakthrough part 215, the junction end 414 of the rotation axis 412 can be located at Described accommodation section 216.

The outside diameter of the junction end 414 is not so limited, but can be less than the outside diameter of the rotation axis 412.

In the outer circumferential surface of the junction end 414, the screw thread for being combined with the axis engaging portion 218 could be formed with. The axis engaging portion 218 may include the holding tank 219 for accommodating the junction end 414, in the inner circumferential of the holding tank 219 Face can be formed with screw thread.

In the state of the junction end 414 of the rotation axis 412 is located at described accommodation section 216, the axis engaging portion 218 Described accommodation section 216 can be contained in by the opening 216a, and can be in described accommodation section 216 and the junction end 414 combine.

In the state of being combined in the axis engaging portion 218 with the junction end 414 of the rotation axis 412, the axis combines Portion 218 is located in described accommodation section 216.In other words, the entrance 216a of the axis engaging portion 218 and described accommodation section 216 is separated Configuration.

A part of outside diameter that can be less than the axis engaging portion 218 in the internal diameter of described accommodation section 216.Therefore, it is described Axis engaging portion 218 can be pressed into described accommodation section 216.

According to the present embodiment, by the rotation axis 412 junction end 414 with reference to the axis engaging portion 218, can The situation for preventing the impeller 20 from coming off from the rotation axis 412.

In addition, by the way that the axis engaging portion 218 is pressed into described accommodation section 216,412 phase of rotation axis can be prevented In the case of the impeller 20 dallies.

At this time, in the state of being combined in the axis engaging portion 218 with the junction end 414 of the rotation axis 412, the axis Engaging portion 218 can be between described accommodation section 216 and the axis breakthrough part 215 the segment difference face for foring segment difference contact, and Pressurize to the segment difference face.In the case, even if the axis engaging portion 218 is not pressed into described accommodation section 216, also can Enough by the frictional force between the segment difference face and the axis engaging portion 218, prevent the rotation axis 412 relative to the impeller The situation of 20 idle running.

It is of course also possible to which the axis engaging portion 218 is pressed into described accommodation section 216, make the axis engaging portion 218 to institute Pressurize in the segment difference face for foring segment difference stated between receiving portion 216 and the axis breakthrough part 215.

Fig. 6 is the amplification stereogram of the part A of Fig. 3.

With reference to Fig. 6, the guide mechanism 30 of the present embodiment can be further included for being combined with the rotation axis 412 of the motor 40 Bearing 340.

The bearing 340 can guide the rotation of the rotation axis 412.

The guide mechanism 30 can further include the bearing fixed part 311 for fixing the bearing 340.

The rotation axis 412 is connected with penetrating through the state of the bearing 340 with the impeller 20.

According to the present embodiment, the rotation axis 412 is combined with penetrating through the state of the bearing 340 with the impeller 20, from And it can prevent the rotation axis 412 from being moved to the direction that the extending direction with the rotation axis 412 intersects.

When the rotation axis 412 is moved to the direction that the extending direction with the rotation axis 412 intersects, the impeller 20 It can be moved to the direction that the extending direction with rotation axis 412 intersects, so that the impeller 20 can be with the inner peripheral surface of the shell 10 It is in contact.In the case, the friction noise of the impeller 20 and the shell 10 can be not only produced, can also be produced described Impeller 20 rotates Airflow and moves the problem of having some setbacks.

But in accordance with the invention it is possible to prevent the rotation axis 412 from intersecting to the extending direction with the rotation axis 412 Direction movement, therefore the impeller 20 can be prevented to be in contact with the shell 10.

Fig. 7 is the figure for the vacuum cleaner for showing the suction unit with the present invention.

With reference to Fig. 7, suction unit 1 of the invention can for example be arranged at the inside of hand-held cleaning unit 70.

The suction unit 1 can be run in the state of the separation of bar body 60 in the hand-held cleaning unit 70, or Person runs the suction unit 1 in the state of the hand-held cleaning unit 70 is combined with the bar body 60.

Illustrate present invention technological thought described above with being merely exemplary, those skilled in the art are not departing from this In the range of the essential feature of invention, a variety of modifications and changes can be carried out.Therefore, disclosed embodiment of this invention is not For limiting the technological thought of the present invention, but it is used for the technological thought for illustrating the present invention, also, the technological thought of the present invention Scope is not limited to above-described embodiment.

Claims (15)

1. one kind suction unit, wherein,

Including：

Shell, has air intake；

Noise reduction unit, is arranged at the shell, and the noise reduction unit separates in the outside of the air intake with the air intake matches somebody with somebody Put；

Impeller, for making by the noise reduction unit and having passed through the air flow of the air intake；

Motor, has the rotation axis for being used for being connected with the impeller；

Guide mechanism, for guiding the flowing of the air from the outlet outflow of the impeller；And

Axis engaging portion, is combined with the rotation axis for being connected to the impeller.

2. suction unit as claimed in claim 1, wherein,

The noise reduction unit is connected by the connection rib with the air intake.

3. suction unit as claimed in claim 2, wherein,

Between the noise reduction unit and the air intake, air flow circuit is formed.

4. suction unit as claimed in claim 1, wherein,

The noise reduction unit makes air be divided into multiple flow paths.

5. suction unit as claimed in claim 1, wherein,

The outside diameter of the noise reduction unit is less than the internal diameter of the air intake.

6. suction unit as claimed in claim 1, wherein,

The noise reduction unit includes：

First rib, is formed as ring-type,

Second rib, positioned at the inside region of the first rib, and,

3rd rib, for connecting the first rib and second rib；

Air flows between the first rib and second rib.

7. suction unit as claimed in claim 6, wherein,

Second ribbed becomes ring-type, to enable air to by second rib.

8. suction unit as claimed in claim 1, wherein,

The impeller includes：

Axis breakthrough part, the rotation axis penetrate through the axis breakthrough part；And

Receiving portion, accommodates the axis engaging portion.

9. suction unit as claimed in claim 8, wherein,

The rotation axis includes being used for the junction end combined with the axis engaging portion,

The junction end is to penetrate through the state of the axis engaging portion, positioned at described accommodation section.

10. suction unit as claimed in claim 9, wherein,

The junction end includes screw thread,

The axis engaging portion includes being used for the screw thread being screwed with the junction end.

11. suction unit as claimed in claim 8, wherein,

In the state of being combined in the axis engaging portion with the rotation axis in described accommodation section, the axis engaging portion and the receiving The entrance in portion is separated to the rotation shaft side.

12. suction unit as claimed in claim 8, wherein,

The internal diameter of described accommodation section is more than the internal diameter of the axis breakthrough part,

In the state of being combined in the axis engaging portion with the rotation axis, the axis engaging portion is passed through with described accommodation section and the axis The segment difference face in logical portion is in contact.

13. suction unit as claimed in claim 1, wherein,

The rotation axis penetrates through the guide mechanism,

The guide mechanism has bearing, and the rotation axis penetrates through the bearing.

14. suction unit as claimed in claim 13, wherein,

The rotation axis is connected after the bearing is penetrated through with the impeller.

15. suction unit as claimed in claim 1, wherein,

The impeller includes：

Wheel hub, and,

Multiple blades, are formed at the wheel hub；

The guide mechanism includes：

Guide body, and,

Multiple guide plates, in the configuration spaced apart in the circumferential direction of the outer circumferential surface of the guide body；

The maximum gauge of the wheel hub is more than the outside diameter of the guide body.